Minimum length of the mirror required for a man to see the wall behind him?

A man of height 2h stands in the middle of a room of length 6h. The height of a wall is 4h. What is the minimum length of a mirror to be placed on the wall in front of the man so that he can see the entire wall behind him?

A man of height 2h stands in the middle of a room of length 6h. The height of a wall is 4h. What is the minimum length of a mirror to be placed on the wall in front of the man so that he can see the entire wall behind him?

Yes, I need help. Tell me how to solve this problem. I don't know even a bit how to solve it.

I would suggest that you draw a diagram with the viewer in the middle of the room at 3H. Divide the room vertically in half at 2H (to solve the top half which we can then double) with the eye level at 2H high now, the ray trace should go from that mid-point to one wall above the 2H level that reflects back to the top of the wall behind the viewer another 6H away. That total distance describes a triangle (if you unfolded the trip to and from that is 9H long and 2H high.

Since it is a similar triangle, the distance at the wall (the top height of the mirror) is to 3H as 2H is to 9H